about
P361
Peroxisome proliferator activated receptor gammaNuclear receptor subfamily 1 group H member 4GlucokinaseNuclear receptor subfamily 1, group H, member 4Adrenergic receptor, beta 1ATP-binding cassette, sub-family B (MDR/TAP), member 4Nuclear receptor subfamily 1, group D, member 2Acyl-CoA oxidase 3, pristanoylAcyl-CoA oxidase 1Acyl-CoA oxidase 2Acyl-CoA oxidase likeCeramide transporter 1Angiopoietin like 3Abhydrolase domain containing 4, N-acyl phospholipase BAbhydrolase domain containing 5, lysophosphatidic acid acyltransferaseAbhydrolase domain containing 8Upstream transcription factor 1Nuclear receptor subfamily 1 group H member 3F-box and WD repeat domain containing 7Hepatocyte nuclear factor 4 alphaNuclear receptor subfamily 1 group H member 2CCAAT enhancer binding protein alphaNuclear factor, erythroid 2 like 1Retinol binding protein 1THADA armadillo repeat containingPatatin like phospholipase domain containing 5Patatin like phospholipase domain containing 1Patatin like phospholipase domain containing 2Patatin like phospholipase domain containing 3Asialoglycoprotein receptor 2Upstream transcription factor 2, c-fos interactingAcetyl-CoA carboxylase alphaPatatin like phospholipase domain containing 4Zinc finger and BTB domain containing 20Glucose-6-phosphatase catalytic subunitInsulin receptor substrate 2Transmembrane 6 superfamily member 2Apolipoprotein A-IVApolipoprotein ECollagen, type IV, alpha 3 (Goodpasture antigen) binding protein
P682
Role of human hepatocyte nuclear factor 4alpha in the expression of drug-metabolizing enzymes and transporters in human hepatocytes assessed by use of small interfering RNAsiRNA-based gene silencing reveals specialized roles of IRS-1/Akt2 and IRS-2/Akt1 in glucose and lipid metabolism in human skeletal musclePlasma metabolism of apolipoprotein A-IV in humansPurification and characterization of a human plasma cholesteryl ester transfer proteinTHADA Regulates the Organismal Balance between Energy Storage and Heat Production.Cellular retinol-binding protein I, a regulator of breast epithelial retinoic acid receptor activity, cell differentiation, and tumorigenicity.Rapamycin inhibits peritoneal fibrosis by modifying lipid homeostasis in the peritoneumAn Okinawan-based Nordic diet improves glucose and lipid metabolism in health and type 2 diabetes, in alignment with changes in the endocrine profile, whereas zonulin levels are elevatedDiverse Chemical Compounds Target Plasmodium falciparum Plasma Membrane Lipid HomeostasisEffect of ethanol on lipid metabolismThe Parkinson-associated human P5B-ATPase ATP13A2 modifies lipid homeostasis
P921
Q14761972-7B83DE9A-557A-4AB3-B1E0-B39190554B31Q14878191-C32A69AC-7A69-4426-B678-2BD3855AF00FQ21097374-DBAB8277-95A8-49C7-BED1-17213E1C4173Q21112286-7C848962-22C8-4564-89AD-A99E00F95F90Q21124250-9C0F8644-02B1-449C-8931-4D4F0750EC79Q22298137-8B72FAAB-A872-4109-A275-518AF5A0FBACQ22307679-60DD5B9F-5FF9-400B-A541-6ED6F126B676Q22307735-8349F18F-065F-4410-AFBA-AD8CF84EB252
P279
Q1084878-E60F3145-89B8-439A-BFB8-012FBE928930Q1085078-0C75F7A4-8F1D-4B0E-B0BB-0C0EFAD89071Q14863086-1C623523-565E-413E-A761-9C332C8DD249Q14905046-C9A6B97F-3E82-4314-B45D-24C64E0287ECQ14916366-DDF54C41-FFB4-426F-A9B3-3DBCA6080E7BQ15315987-FA359D07-4975-461A-8EB5-40C4EFB2E158Q15327805-D9854E51-4EAC-4B0F-8A2B-10823725B6DFQ21096281-D8ECDED8-7E2A-4E4F-8044-82CDCEBD0209Q21096304-10083790-7D34-4FD5-A9B5-FFB74ECDDD7BQ21096304-57B95B8E-B990-4D10-B28E-C72097FE3B09Q21096342-E1DD979E-57B0-47C1-8757-1389F3B362CFQ21096344-78FF08AB-D271-4476-BCEB-333F263621F8Q21096462-141B9977-C415-4CC4-B619-E25583CFEC07Q21097376-9605466B-EEED-4CC1-A908-15D274EF0B81Q21104845-A844ED9A-DF53-4F5B-865E-B14211E8A744Q21104849-E18122E2-4E1A-4F7A-8EBD-91D2A21DF1CDQ21104862-1247B566-7ABE-462A-90C5-B8B517337789Q21107401-32E9C9DB-E1CC-4188-B8CA-FD4CABDD8BCBQ21112289-13F48E30-6257-4CAE-83F5-AD9D939993F6Q21112289-56D05342-B485-4612-9E10-94CDD6C08C8DQ21113973-D361A954-7C77-4CD3-A02E-19CC686D7D53Q21114166-1AB7A261-2632-4073-A96F-C5C2DD3E6699Q21114166-ED255572-B3AB-439F-9973-BD11687A62CFQ21115219-3D534D56-1C58-4C3C-8434-34A70AC0A84CQ21115219-41D49AFC-0536-4A1D-BBEE-15C1AD1D1E8FQ21115219-535E4323-B6FC-4DC4-ADDD-D5DE9EE72837Q21116819-41071D80-071A-4D54-B275-90E1A2DF859AQ21119958-C82CA083-8CA4-4F6C-97BA-297B6431DE5FQ21124370-C71A6B12-128D-4204-A059-ED007D4B2E25Q21124614-4844718F-7080-4517-BA95-58373D9E7EF2Q21126836-8708E17E-FCF2-46BB-998F-18CCEB671120Q21126837-F8ADF79F-546B-4289-BEB1-2452A265B001Q21126841-B12D321C-E99B-4204-BD1C-097EDDF49F3CQ21126849-559FC03D-1995-4023-8519-0AF483B4D44DQ21126849-F72A1960-8821-4E8B-9D62-D2200607F0FAQ21130027-1ED0FEC8-54B1-4BBB-9BDD-3228B89A39DBQ21130947-43C25159-EC9B-42C0-B8EE-11365160B756Q21132367-95D54F10-B994-4C35-92C9-5F16B10B19B1Q21134884-521B6B37-B452-4C47-8D1C-DE6970A34B42Q21136894-7E981549-E49E-4572-876C-006A03FC0173
P682
Q24293139-21C3DD28-A3E9-4979-8758-6C7486B5613EQ24295160-80D7FB3B-F6D1-46A4-8C3D-4F7897BF464CQ24296284-CC7BD9C9-E7DB-4408-A6AF-80623C085FDDQ24299928-6221F0D9-A68C-48D7-834E-20D2FFF9CEE9Q30668555-748C988E-7177-48D8-ADF8-E342DC683E47Q38332435-AC441AD2-DD1D-477F-8009-306A9E1EC6D7Q64085180-68A3E8CA-D1F3-4BED-93F1-B063FC88827FQ64110458-4CB199E1-9ED3-490A-9050-705DBCAA90BBQ64228697-C9CA60CF-74D9-46F0-8824-EFCDAD34E144Q64282122-F9D6CAC0-293D-4398-910B-68F10E8CBF0DQ64764741-DCF56CA4-D30F-4ECA-B4E1-3C42D6652DB7
P921
description
Any process involved in the ma ...... id within an organism or cell.
@en
biologisch proces
@nl
name
lipid homeostasis
@en
type
label
lipid homeostasis
@en
altLabel
GO:0055088
@en
prefLabel
lipid homeostasis
@en
P2888
P527
P686
GO:0055088